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HS Code |
258370 |
| Chemical Name | 4-Amino-N,N-Dimethylaniline Hydrochloride |
| Synonyms | p-(Dimethylamino)aniline hydrochloride |
| Molecular Formula | C8H12ClN2 |
| Molecular Weight | 170.65 g/mol |
| Cas Number | 536-46-9 |
| Appearance | Light yellow to beige crystalline powder |
| Melting Point | 166-168 °C |
| Solubility In Water | Freely soluble |
| Storage Conditions | Store at room temperature, in a tightly closed container |
| Purity | Typically >98% |
| Boiling Point | Decomposes before boiling |
| Odor | Odorless |
As an accredited 4-Amino-N,N-Dimethylaniline Hydrochloride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | The 25g bottle of 4-Amino-N,N-Dimethylaniline Hydrochloride is tightly sealed in an amber glass container with hazard labeling. |
| Shipping | 4-Amino-N,N-Dimethylaniline Hydrochloride is shipped in tightly sealed containers to prevent moisture absorption and contamination. It should be transported as a hazardous chemical, with appropriate labeling, secondary containment, and documentation. Protective packaging minimizes the risk of exposure or spills during transit. Shipping complies with relevant regulations for hazardous substances. |
| Storage | 4-Amino-N,N-Dimethylaniline Hydrochloride should be stored in a tightly closed container, in a cool, dry, well-ventilated area, away from sources of ignition and incompatible substances such as oxidizing agents. Protect from moisture and direct sunlight. Store at room temperature and avoid extreme temperatures. Always follow appropriate safety and regulatory guidelines when handling and storing this chemical. |
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Purity 98%: 4-Amino-N,N-Dimethylaniline Hydrochloride with 98% purity is used in pharmaceutical synthesis, where high purity ensures consistent yield and quality of active ingredients. Melting Point 166°C: 4-Amino-N,N-Dimethylaniline Hydrochloride with a melting point of 166°C is used in dye manufacturing, where precise melting behavior improves batch reproducibility. Particle Size <100 microns: 4-Amino-N,N-Dimethylaniline Hydrochloride with particle size below 100 microns is used in pigment production, where fine particle distribution enhances color uniformity. Stability Temperature up to 80°C: 4-Amino-N,N-Dimethylaniline Hydrochloride with stability temperature up to 80°C is used in analytical reagent formulations, where thermal stability supports accurate analytical results. Water Content <0.5%: 4-Amino-N,N-Dimethylaniline Hydrochloride with water content less than 0.5% is used in electronic chemical applications, where low moisture content prevents electrical interference. Assay ≥99%: 4-Amino-N,N-Dimethylaniline Hydrochloride with assay not less than 99% is used in fine chemical synthesis, where high assay ensures reliable reaction efficiency. Bulk Density 0.65 g/cm³: 4-Amino-N,N-Dimethylaniline Hydrochloride with bulk density of 0.65 g/cm³ is used in tablet formulation, where optimized density facilitates uniform tablet compression. Solubility 20 g/100 mL (water): 4-Amino-N,N-Dimethylaniline Hydrochloride with 20 g/100 mL water solubility is used in ink formulation, where high solubility promotes even pigment dispersion. UV-Vis Absorption λmax 301 nm: 4-Amino-N,N-Dimethylaniline Hydrochloride with UV-Vis absorption maximum at 301 nm is used in spectrophotometric analysis, where specific absorption enables sensitive detection. Shelf Life 24 months: 4-Amino-N,N-Dimethylaniline Hydrochloride with a shelf life of 24 months is used in laboratory standards, where long shelf life maintains material integrity over time. |
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Chemistry often feels like a distant world filled with jargon and complex molecules, but let’s pull it down to earth today. The compound 4-Amino-N,N-Dimethylaniline Hydrochloride comes up in labs across the world. This compound, which rolls off the tongue like a challenge, actually leaves a big footprint in several fields, including dyes, pharmaceuticals, and analytical chemistry. The model most commonly discussed by researchers carries the formula C8H12ClN2. That formula signals more than just atoms. It shows significant building blocks for bigger innovations.
In daily work, there’s a recurring need for chemical consistency and reliability. This compound helps chemists dive deep into color chemistry with a trustworthy base. Unlike more exotic or risky aromatic amines, 4-Amino-N,N-Dimethylaniline Hydrochloride comes with a history in research and application, and it plays a quiet but important role in existing syntheses. The salt form boosts stability, making it easier to handle and weigh. Anyone who has experienced humidity wreaking havoc on sensitive reagents will recognize the value of a good salt form.
Chemists in labs, whether in academia or industry, depend on substances that won’t change from batch to batch. Unlike its parent amine, the hydrochloride addition doesn’t just control reactivity, it offers a cleaner, more predictable outcome. Routine can sound boring, but chemistry relies on predictability to keep people safe and processes running. Consistency allows researchers to focus on discovering genuinely new ideas, instead of fighting with their materials.
I have seen what happens when experiments fall apart because the inputs just weren’t up to the task. A product like 4-Amino-N,N-Dimethylaniline Hydrochloride answers to more than just paper purity assays. It gives a signal—often a crystalline powder shifting from pale yellow to off-white—that tells the chemist everything is in order. In my experience, especially when measuring out the next day’s set of dyes or prepping for another round of kinetic studies, this reliability can feel like a friend backing you up.
The physical form matters, too. Dusty, poorly crystallized compounds mean static and trouble transferring grams into flasks. In contrast, this material flows evenly, measures out with a ‘tap’ from the spatula, and dissolves without stubborn clumping. These details sound small unless you’ve sweated through a morning scraping sticky powders from a weighing boat.
Looking through literature and practice, the use of 4-Amino-N,N-Dimethylaniline Hydrochloride in colorant chemistry crops up repeatedly. Making dyes isn’t just for clothes. Biomedical researchers use dyes to stain tissues for microscopy, and electronics manufacturers need reproducible colorants in thin-film technology and printing inks. These stories don’t make headlines, but anyone who needs high-contrast stains for medical slides learns the value of high-purity reagents.
The utility doesn’t end there. As an intermediate, this compound steps into many synthesis pathways for active pharmaceutical ingredients—think of anesthetics or certain antibacterial agents. It’s not flashy, but it underpins products people rely on for health and safety. The amine group at the core of the molecule drops into place as a precursor for more famous chemicals, supporting research and real-world therapies alike.
Many newcomers confuse compounds like N,N-Dimethylaniline and its para-amino derivative—or use names like DMAA interchangeably. But not every dimethylaniline brings the same performance or safety. The amino group hooked to the para position isn’t just a tweak; it brings new routes and reactivity the unsubstituted molecule doesn’t offer. The hydrochloride form narrows the focus to the most stable, easy-to-handle version—something that matters if you’re working in a space that isn’t climate-controlled or need predictable shelf life.
Some people try to swap out this reagent for others based on cost or supply. From what I've seen, this always backfires on method development. The purity and structure of 4-Amino-N,N-Dimethylaniline Hydrochloride match industry requirements for sensitive reactions and downstream analysis. Cheaper substitutes tend to bring more noise into data and introduce impurities you’ll just have to clean out later anyway.
While specs lists can get mind-numbing, some features stand out. This compound generally comes with a defined melting range, often listed between 220 and 225°C. A sharp melting point tells you it’s not bulked up with fillers. The molecule’s moderate solubility in water, along with typical clarity when dissolved, allows it to blend seamlessly in dye vats or reaction flasks. Many labs demand this level of performance because a failed reaction wastes more than materials—it takes away time and sets research effort back by days or weeks.
No compound stands alone, and there’s always pressure to meet strict regulatory limits on potentially hazardous amines or contaminants. Certified testing routines, like HPLC or TLC analysis, help verify claims, but ultimately it’s the everyday experience with product performance that tells the truth. Getting a product that shows clean peaks and minimal background interference often marks the difference between a good and bad result.
Transportation and storage present hurdles. Anyone who’s opened a bottle to find faint sticking or odd color needs to question the shipping and packaging protocols. Moisture and light degrade quality, so packaging with stable, air-tight seals and opaque bottles aren’t just nice-to-have—they’re a must in busy labs. Training staff to recognize these issues, and reinforcing a “check the chemicals” culture, prevents headaches later.
Waste and environmental impact concern every modern operation. Process chemists look to avoid unnecessary spillage, but also to deal responsibly with amine-based chemicals. Local regulations often guide safe neutralization and disposal. I’ve seen too many cases where poor tracking or documentation led to confusion, and that creates costly investigations or regulatory headaches. Better tracking systems and clear disposal labeling go a long way to preventing these events.
Years of working in shared university labs and industry pilot plants drive home the value of trusted materials. Too many research hours get lost to questionable batches, last-minute substitutions, or suppliers advertising “equivalent” products that don’t stand up to real-world trials. Having a tube of 4-Amino-N,N-Dimethylaniline Hydrochloride you know can do the job—without bringing surprises—lowers the daily risk of wasted cycles.
This isn’t just an abstract concern. I’ve seen published research walk back conclusions after sourcing issues. Teams lost credibility, and hard work vanished in corrections and reanalysis. Chasing price alone, without evaluating track record or service, turns into false economy. Open lines with suppliers, along with easy access to certificates of analysis and question-answer support, make the difference in crunch times.
There’s glamour in big scientific discoveries, but most advances come from daily progress. Reliable chemicals free up focus for tackling subtle issues. Watching creative, careful chemists re-invent their methods or troubleshoot reactions brings an appreciation of all the parts that go into “boring” day-to-day chemistry. From dye batches for industrial textiles to a single slide for a biopsy, no single reaction is too small to deserve good input materials.
4-Amino-N,N-Dimethylaniline Hydrochloride isn’t about glamour. It’s about support, predictability and giving chemists fewer reasons to second-guess their results. Users may not write papers about every time this compound simply worked, but the chain of successful outcomes speaks for itself.
Eco-conscious research keeps changing how small molecules like this one are handled. Green chemistry is a growing area, pressuring suppliers and end users to think about the whole supply chain. Recyclable packaging, reduced-waste syntheses, and better labeling all help lower the impact of regular chemical use. As new colorant technologies develop, and demands increase for traceable, low-impact chemicals, suppliers face higher hurdles but also new opportunities for differentiation.
In my own experience, researchers using more stringent controls for chemical sourcing started to see better reproducibility and lower rates of missed deliverables. Every added step to confirm batch integrity may sound like red tape, but it builds habits of thoroughness. 4-Amino-N,N-Dimethylaniline Hydrochloride, with its established role, now meets these expectations more closely than some legacy reagents, which can be important when time, reputation, and budgets are tight.
Users ask a lot from their reagents: longer shelf life, reliable performance, and simple protocols for safe use and disposal. Those expectations now run parallel with requests for improved traceability, batch-to-batch analysis, and responsive technical support. There isn’t a single answer to all those priorities, but suppliers who keep channels open, value feedback, and act quickly on reported issues make steady gains with research communities.
Every chemist has a story of “the bad batch” or “the stubborn bottle,” usually told with a mix of humor and frustration. Surviving these stories means learning to check labels, read documentation, and communicate early with procurement teams. Cultivating that culture isn’t just about avoiding problems, it’s about building a climate where everyone, from students to senior principal scientists, takes ownership for their toolkit.
Choosing a compound like 4-Amino-N,N-Dimethylaniline Hydrochloride rarely comes down to branding or eye-catching brochures. It comes from repeated experiences of reliability from sample request to delivery and throughout use. Simple things, like easy-to-read batch numbers, secure caps, correct labeling, and prompt replacement programs, build confidence. In my own purchasing work, I look for companies able to connect users directly with the technical staff, so questions about solubility, storage, or unexpected readings get answered by scientists, not just salespeople.
Bulk users—factories producing dyes by the kilogram or more—have even more demanding processes. Consistency matters more for large-scale mixing and automated batching than for small-bottle work. Here, a mistake isn’t just a wasted afternoon, it can mean lost raw materials, downed lines, or ruined inventory. Feedback from this group often shapes the industry’s response, pushing manufacturers to make quality a visible, routine part of production.
Every research cycle brings anticipation and risk. A trusted product like 4-Amino-N,N-Dimethylaniline Hydrochloride doesn’t make chemistry easy, but it can remove unnecessary uncertainty. That reliability supports faster results, fewer mistakes, and opportunities for breakthroughs grounded in solid data. For a chemist standing in a noisy lab or an engineer watching over a batch tank, that’s the value that matters most.
In this field, learning never stops. Methods improve, environmental benchmarks rise, and researchers everywhere expect more from their supplies. Like other foundational chemicals, 4-Amino-N,N-Dimethylaniline Hydrochloride now enters workflows as a given—worth little mention until something goes wrong, but earning respect every time it does what it’s supposed to. In science, trust is hard-won and quickly lost. Products with proven performance, available documentation, and accessible support keep earning that trust in labs large and small.
It’s tempting to overlook smaller players in the story of innovation. This compound, though rarely mentioned in headlines outside of specialized conferences, plays its part in thousands of syntheses and quality control programs every week. From textile coloration to drug precursor work, researchers place a premium on the unnoticed moments when everything simply works. The compound’s ability to deliver without drama frees up energy for the puzzles that do deserve attention.
That is where real progress lives: not just in chasing novelty, but in supporting every careful, thoughtful experiment with trustworthy tools. Countless achievements, large and small, depend on steady hands and quiet performers. 4-Amino-N,N-Dimethylaniline Hydrochloride stands among them, making complicated work a little simpler, one precise measurement at a time.
